© 2020 ACM. Fixed-parameter algorithms and kernelization are two powerful methods to solve NP-hard problems. Yet so far those algorithms have been largely restricted to static inputs. In this article, we provide fixed-parameter algorithms and kernelizations for fundamental NP-hard problems with dynamic inputs. We consider a variety of parameterized graph and hitting set problems that are known to have f(k)n1+o(1) time algorithms on inputs of size n, and we consider the question of whether there is a data structure that supports small updates (such as edge/vertex/set/element insertions and deletions) with an update time of g(k)no(1); such an update time would be essentially optimal. Update and query times independent of n are particularly de...
While polynomial-time approximation algorithms remain a dominant notion in tackling computationally...
Multivariate complexity is a prominent field that over the last decades has developed a rich toolbox...
It has long been known that Feedback Vertex Set can be solved in time 2 O ( w log w ) n O ( 1 ) on ...
© 2020 ACM. Fixed-parameter algorithms and kernelization are two powerful methods to solve NP-hard p...
This thesis studies a series of questions about dynamic algorithms which are algorithms for quickly ...
Abstract. Settling a ten years open question, we show that the NPcomplete Feedback Vertex Set proble...
In this paper, we give an algorithm that, given an undirected graph G of m edges and an integer k, c...
Given a graph G and an integer k, the Feedback Vertex Set (FVS) problem asks if there is a vertex se...
Abstract We introduce new models for dynamic computation based on the cell probe model of Fredman an...
International audienceA dynamic graph algorithm is a data structure that answers queries about a pro...
In this paper we present a simple but powerful subgraph sampling primitive that is applicable in a v...
In the Subset Feedback Vertex Set (Subset FVS) problem, the input is a graph G on n vertices and m e...
We introduce new models for dynamic computation based on the cell probe model of Fredman and Yao. We...
In a dynamic version of a (base) problem X it is assumed that some solution to an instance of X is n...
The (parameterized) feedback vertex set problem on directed graphs, which we refer to as the dfvs pr...
While polynomial-time approximation algorithms remain a dominant notion in tackling computationally...
Multivariate complexity is a prominent field that over the last decades has developed a rich toolbox...
It has long been known that Feedback Vertex Set can be solved in time 2 O ( w log w ) n O ( 1 ) on ...
© 2020 ACM. Fixed-parameter algorithms and kernelization are two powerful methods to solve NP-hard p...
This thesis studies a series of questions about dynamic algorithms which are algorithms for quickly ...
Abstract. Settling a ten years open question, we show that the NPcomplete Feedback Vertex Set proble...
In this paper, we give an algorithm that, given an undirected graph G of m edges and an integer k, c...
Given a graph G and an integer k, the Feedback Vertex Set (FVS) problem asks if there is a vertex se...
Abstract We introduce new models for dynamic computation based on the cell probe model of Fredman an...
International audienceA dynamic graph algorithm is a data structure that answers queries about a pro...
In this paper we present a simple but powerful subgraph sampling primitive that is applicable in a v...
In the Subset Feedback Vertex Set (Subset FVS) problem, the input is a graph G on n vertices and m e...
We introduce new models for dynamic computation based on the cell probe model of Fredman and Yao. We...
In a dynamic version of a (base) problem X it is assumed that some solution to an instance of X is n...
The (parameterized) feedback vertex set problem on directed graphs, which we refer to as the dfvs pr...
While polynomial-time approximation algorithms remain a dominant notion in tackling computationally...
Multivariate complexity is a prominent field that over the last decades has developed a rich toolbox...
It has long been known that Feedback Vertex Set can be solved in time 2 O ( w log w ) n O ( 1 ) on ...